CN112451961A - Game machine handle - Google Patents

Abstract

The invention provides a gamepad which comprises a shell and a support frame arranged on the shell, wherein a containing space is formed in the shell and used for containing an earphone, and the support frame is used for supporting game equipment. The housing of the gamepad is provided with the storage space for storing the earphone, so that the earphone can be stored in the storage space when a user does not play a game, the problem that the user forgets to carry the earphone or cannot use the earphone to reduce game experience can be avoided, and the gamepad is convenient to use.

Description

Game machine handle

Technical Field

The invention relates to the field of handles, in particular to a game handle.

Background

With the rapid development of the electronic game industry, the mobile game is widely popularized due to convenience. For better game operation, a game pad is generally arranged outside the mobile phone. The existing mobile phone gamepads are mainly divided into two types, one type is a gamepad which can not be plugged with an earphone, namely, the mobile phone is clamped in the middle of the gamepad, and the gamepad blocks an earphone hole of the mobile phone and can not be plugged with the earphone; the other type is a gamepad capable of being plugged with earphones, namely, the mobile phone is arranged on a support of the gamepad, and the gamepad can be plugged with the earphones without shielding earphone holes. However, the gamepad which can not be plugged with the earphone is easily influenced by external environment shadow in the operation process, and the game experience is reduced; the earphone line on the game handle can not be stored.

Disclosure of Invention

The invention provides a gamepad which can be inserted with earphones and is convenient to store the earphones.

The invention provides a gamepad which comprises a shell and a support frame arranged on the shell, wherein a containing space is formed in the shell and used for containing an earphone, and the support frame is used for supporting game equipment.

The housing of the gamepad is provided with the storage space for storing the earphone, so that the earphone can be stored in the storage space when a user does not play a game, the problem that the user forgets to carry the earphone or cannot use the earphone to reduce game experience can be avoided, and the gamepad is convenient to use.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a perspective view of a game pad according to a first embodiment of the present invention.

Fig. 2 is a perspective view of the gamepad of fig. 1 from another perspective.

Fig. 3 is an exploded perspective view of the game pad of fig. 1.

Fig. 4 is an exploded perspective view of the game pad of fig. 2.

Fig. 5 is a cross-sectional view taken along line V-V in fig. 1.

Fig. 6 is an enlarged view of a VI portion in fig. 5.

Fig. 7 is a schematic view of the gamepad of fig. 6 showing a state in which an earphone cord is automatically received.

Fig. 8 is a schematic view showing a state of use of a game pad in the first embodiment of the present invention.

Fig. 9 is a schematic sectional view of a game pad in a second embodiment of the present invention.

Fig. 10 is a schematic view of the gamepad of fig. 9 showing a state in which an earphone cord is automatically received.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without inventive effort based on the embodiments of the present invention, are within the scope of the present invention.

In addition, the following description of the various embodiments refers to the accompanying drawings, which illustrate specific embodiments in which the application may be practiced. Directional phrases used in this application, such as, for example, "upper," "lower," "front," "rear," "left," "right," "inner," "outer," "side," and the like, refer only to the orientation of the appended drawings and are, therefore, used herein for better and clearer illustration and understanding of the application and are not intended to indicate or imply that the device or element so referred to must have a particular orientation, be constructed and operated in a particular orientation, and are therefore not to be considered limiting of the application.

In the description of the present application, it should be noted that unless otherwise explicitly stated or limited, the terms "mounted," "connected," and "disposed at … …" are to be construed broadly, e.g., as being fixedly connected, detachably connected, or integrally connected; may be a mechanical connection; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present application can be understood in a specific case by those of ordinary skill in the art.

Referring to fig. 1 to 4, fig. 1 is a schematic perspective view of a game pad according to a first embodiment of the present invention; FIG. 2 is a schematic perspective view of the gamepad of FIG. 1 from another perspective; FIG. 3 is an exploded perspective view of the gamepad of FIG. 1; fig. 4 is an exploded perspective view of the game pad of fig. 2. The gamepad 100 in the first embodiment of the present invention includes a housing 20 and a support 40 disposed on the housing 20, wherein a receiving space 22 is formed in the housing 20, the receiving space 22 is used for receiving an earphone 50, and the support 40 is used for supporting a game device 300 (as shown in fig. 8). The game device 300 in this embodiment is a mobile phone with game software, and the support frame 40 is clamped in the middle of the mobile phone in the length direction, so that the earphone hole of the mobile phone is not blocked.

The support frame 40 of the gamepad 100 is connected to the middle of the game device 300 in the length direction, so that a user can conveniently plug earphones, the influence of other people or the influence of the external environment in the game playing process is avoided, and the game experience is improved; in addition, the housing 20 has a receiving space 22 for receiving the earphone 50 therein, so that the earphone 50 can be received in the receiving space 22 when a game is not played, thereby facilitating the use.

The receiving space 22 is formed through an outer surface of the housing 20 to form an insertion hole 220, and the earphone 50 is received in the receiving space 22 through the insertion hole 220. The receiving space 22 is provided in the middle of the housing 20, and the insertion hole 220 may be located at any position on the outer surface of the housing 20, and preferably, the insertion hole 220 is located on the side facing the user when the game pad 100 is operated.

In the present embodiment, two insertion holes 220 communicating with the receiving space 22 are formed in the outer surface of the housing 20, and the two earphones 50 (left earphone and right earphone) are received in the receiving space 22 through the two insertion holes 220, respectively.

The housing 20 includes a lower case 21 and an upper case 23 detachably covering the lower case 21, the storage space 22 is provided in the middle of the lower case 21, the upper case 23 includes a front face 230 provided with a plurality of control buttons, the lower case 21 includes a back face 210 deviating from the front face 230, a front side face 213 located on one side of the back face 210, and a rear side face 215 located on the other side opposite to the back face 210. The front side 213 of the lower housing 21 is recessed and the rear side 215 of the lower housing 21 is recessed to form two opposite hand-held portions 25 on the housing 20, so that a user can operate the game pad 100 by holding the hand-held portions 25. The supporting frame 40 is located on the front side 213 of the housing 20, the receiving space 22 is formed with an insertion hole 220 through the rear side 215, and the earphone 50 is received in the receiving space 22 through the insertion hole 220.

As shown in fig. 4, the two hand-held portions 25 of the lower housing 21 have a pair of shaft holes 216 formed at opposite ends of the front side surface 213, and the supporting frame 40 is rotatably connected to the pair of shaft holes 216.

An automatic wire rewinding mechanism 60 is disposed in the accommodating space 22 of the housing 20, and a portion of the earphone cord 52 of the earphone 50, which is far away from the earphone 50, is accommodated in the automatic wire rewinding mechanism 60, that is, when the earphone 50 is not used, the earphone 50 is accommodated in the accommodating space 22, and the earphone cord 52 is automatically accommodated in the automatic wire rewinding mechanism 60.

Referring to fig. 5 and 6, the automatic cable winding mechanism 60 includes a housing 62 and a cable winding element 64 disposed in the housing 62, wherein the cable winding element 64 rotates relative to the housing 62 to wind the earphone cable 52 on the cable winding element 64 or separate the earphone cable 52 from the cable winding element 64. The housing 62 is provided with an inner cavity for accommodating the wire collecting piece 64, the middle part of the housing 62 is provided with a rotating shaft 622 protruding into the inner cavity, the middle part of the wire collecting piece 64 is rotatably sleeved on the rotating shaft 622, namely, the wire collecting piece 64 can rotate along the rotating shaft 622 in the inner cavity of the housing 62. In this embodiment, the wire collecting member 64 is a circular annular plate, an annular wire collecting groove 642 is formed in the outer peripheral wall of the wire collecting member 64 along the circumferential direction, and the earphone cord 52 is wound and collected in the wire collecting groove 642.

The automatic cable rewinding mechanism 60 further comprises a driving member 65 for driving the cable rewinding member 64 to rotate, wherein the driving member 65 drives the cable rewinding member 64 to rotate, so that the earphone cable 52 is wound on the cable rewinding member 64. Specifically, the earphone cord 52 is pulled outwards to be separated from the cord collecting piece 64, so that the cord collecting piece 64 rotates along a first direction; the driving member 65 always provides a force for driving the wire winding member 64 to rotate towards a second direction, which is opposite to the first direction, and when the outward pulling force on the earphone cable 52 is released, the driving member 65 drives the wire winding member 64 to rotate towards the second direction, so that the earphone cable 52 is wound and stored in the wire winding groove 642 of the wire winding member 64 again. In this embodiment, if the first direction rotation is clockwise rotation, the second direction rotation is counterclockwise rotation; the first direction rotation is counterclockwise rotation, and the second direction rotation is clockwise rotation.

In this embodiment, the driving member 65 is a coil spring 65 disposed between the housing 62 and the cable winding member 64, and the coil spring 65 always provides a force for driving the cable winding member 64 to rotate so as to wind the earphone cable 52. Specifically, one end of the coil spring 65 is connected to the rotating shaft 622, and the other end of the coil spring 65 is connected to the wire-rewinding element 64, so that the coil spring 65 always provides a force for driving the wire-rewinding element 64 to rotate so as to rewind the earphone cord 52. When the earphone line 52 is pulled outwards to be separated from the line-drawing piece 64, the earphone line 52 extends out of the insertion hole 220 to facilitate the use of the earphone 50, the line-drawing piece 64 rotates along the first direction or the second direction, and the helical spring 65 elastically deforms; when the outward pulling force on the earphone line 52 is released, the coil spring 65 restores to deform to drive the line-winding member 64 to rotate towards the second direction or the first direction, so that the earphone line 52 is wound and stored in the line-winding groove 642 of the line-winding member 64 again, and the earphone 50 is stored in the storage space 22, thereby facilitating the storage of the earphone 50 and the earphone line 52.

Referring to fig. 3 to 6, the automatic cable rewinding mechanism 60 further includes a positioning element 67, and the positioning element 67 is used for positioning the rotation of the cable rewinding element 64 so as to position the length of the earphone cable 52 extending out of the insertion hole 220 to be the length required by the user. Specifically, the positioning member 67 can prevent the wire winding member 64 from rotating to wind the earphone cable 52, that is, after the earphone cable 52 extends out of the insertion hole 220, the positioning member 67 prevents the wire winding member 64 from rotating to prevent the earphone cable 52 from being wound on the wire winding member 64 again.

The positioning member 67 includes a positioning rod 672 slidably inserted into the housing 20 and an elastic member 674 for driving the positioning rod 672 to move toward the thread take-up member 64, the thread take-up member 64 is provided with a plurality of positioning portions 601 corresponding to the positioning rod 672, and the positioning rod 672 abuts against the positioning portions 601 to prevent the thread take-up member 64 from rotating. In this embodiment, the positioning rod 672 slides along a direction parallel to the rotation axis of the wire retracting member 64, one end of the positioning rod 672 abuts against the corresponding positioning portion 601, the other end of the positioning rod 672 opposite to the positioning rod 672 extends out of the housing 20, the elastic member 674 is sleeved on the positioning rod 672, and the elastic member 674 always provides a force for driving the positioning rod 672 to slide towards the positioning portion 601.

One end of the positioning rod 672, which is far away from the wire-rewinding member 64, is exposed out of the front face 230 of the upper case 23, an operation cover 675 is provided at the exposed end of the positioning rod 672, the operation cover 675 is pulled in a direction far away from the wire-rewinding member 64, the positioning rod 672 can be disengaged from the abutment with the corresponding positioning portion 601, and the coil spring 65 can drive the wire-rewinding member 64 to rotate to rewind the earphone cord 52. In this embodiment, the elastic member 674 is a tension spring sleeved on the positioning rod 672, one end of the tension spring is connected to the operating cover 675, the other end opposite to the tension spring is connected to the housing 20, and the tension spring always provides a force for driving the positioning rod 672 to move towards the thread take-up member 64, so that the end of the positioning rod 672 is forced to be positioned at the corresponding positioning portion 601. When the operating cover 675 is pulled in a direction away from the wire collecting piece 64, the positioning rod 672 moves outwards to be separated from the positioning of the corresponding positioning part 601, the elastic piece 674 is elastically deformed, the coil spring 65 drives the wire collecting piece 64 to rotate, and the earphone cord 52 is wound and collected in the wire collecting groove 642 of the wire collecting piece 64 again; when the earphone cord 52 is stored in place, the pulling force on the operating cover 675 is released, the elastic member 674 is elastically restored to drive the positioning rod 672 to move towards the cord collecting member 64 until the end of the positioning rod 672 is positioned at the corresponding positioning portion 601, so as to prevent the earphone 50 and the earphone cord 52 from being separated from the housing 20.

In other embodiments, the resilient member 674 may also be, but is not limited to, resilient rubber, resilient plastic, or the like.

In this embodiment, the positioning portions 601 are positioning holes provided on the cord collecting member 64, the positioning holes are arranged in a circle with the rotation axis of the cord collecting member 64 as the center, and the end of the positioning rod 672 can be inserted into any one of the positioning holes to position the cord collecting member 64 to rotate, so as to prevent the earphone cord 52 from being wound on the cord collecting member 64 again.

One side that the locating lever 672 inserted locating hole one end sets up curved smooth surface 676 that leads, outwards pulls earphone cord 52 drives it is rotatory to receive line piece 64, the edge slip of locating hole supports and pushes away the smooth surface 676 that leads of locating lever 672 makes the locating lever 672 to keeping away from one side of receiving line piece 64 removes and breaks away from the joint with the locating hole, promptly the smooth surface that leads of locating lever 672 breaks away from the card that is held with the locating hole that corresponds, and it can rotate to receive line piece 64, and earphone cord 52 breaks away from and receives the winding of line piece 64 and extend patchhole 220.

Preferably, each positioning hole includes an arc-shaped sliding-assistant surface 603 corresponding to the sliding-guide surface 676 of the positioning rod 672, and when the end of the positioning rod 672 is inserted into the corresponding positioning hole, the sliding-guide surface 676 of the positioning rod 672 is attached to the sliding-assistant surface 603 of the positioning hole. The sliding-aid surface 603 of each positioning hole is beneficial to releasing the clamping between the positioning rod 672 and the corresponding positioning hole when the wire-receiving member 64 rotates, so that the earphone cable 52 can be conveniently pulled out from the housing 20.

Locating lever 672 inserts corresponding locating hole one end and deviates from one side of leading slide surface 676 is provided with backstop surface 677, locating lever 672 inserts corresponding locating hole back in, backstop surface 677 stops it is rotatory to receive the line piece, and is concrete, and backstop surface 677 can stop it is rotatory to receive line piece 64, prevents earphone cord 52 twine once more to receive on the line piece 64. When the earphone line 52 is pulled outwards to a proper length, the pulling force on the earphone line 52 is released, the elastic member 674 is elastically reset to drive the positioning rod 672 to move towards the wire collecting piece 64, the end part of the positioning rod 672 is inserted into the corresponding positioning hole, the stopping surface 677 stops the rotation of the wire collecting piece 64, so that the length of the earphone line 52 is positioned, the earphone line 52 is prevented from being wound into the wire collecting groove 642 of the wire collecting piece 64 again, and a user can use the earphone 50 conveniently; when the earphone cord 52 needs to be stored, the operating cover 675 is pulled outwards to drive the positioning rod 672 to move towards the side away from the cord collecting piece 64, the stop surface 677 is separated from the abutment with the corresponding positioning hole, the coil spring 65 drives the cord collecting piece 64 to rotate, and the earphone cord 52 is wound and stored in the cord collecting groove 642 of the cord collecting piece 64 again.

Preferably, each positioning hole further includes a positioning surface 605 corresponding to the stop surface 677 of the positioning rod 672, and when the end of the positioning rod 672 is inserted into the corresponding positioning hole, the stop surface 677 of the positioning rod 672 is attached to the positioning surface 605 of the positioning hole. The positioning surface 605 of each positioning hole is beneficial to positioning the wire collecting piece 64 and preventing the wire collecting piece 64 from rotating; when the stop surface 677 of the positioning rod 672 is released from being attached to the corresponding positioning surface 605, the coil spring 65 drives the wire collecting member 64 to rotate, so that the earphone cable 52 is wound and collected in the wire collecting groove 642 of the wire collecting member 64 again.

As shown in fig. 1 to 5, the supporting frame 40 includes a supporting rod 42 rotatably connected to the housing 20 and a mounting frame 45 connected to an end of the supporting rod 42 away from the housing 20, the supporting rod 42 is rotatably connected to the housing 20, and the mounting frame 45 is used for positioning the game device 300 (shown in fig. 8). The mounting frame 45 includes a support member 451 and a clamp member 454 slidably connected to the support member 451, wherein the support member 451 and the clamp member 454 together position the game device 300.

The supporting member 451 includes a supporting plate 452 and a positioning plate 453 disposed at one end of the supporting plate 452, the clamping member 454 includes a connecting plate 456 corresponding to the supporting plate 452 and a clamping plate 457 disposed at a side of the connecting plate 456 far from the positioning plate 453, the supporting plate 452 and the connecting plate 456 are connected with a guide pillar through a guide groove, the clamping plate 457 can be close to or far from the positioning plate 453, and the game apparatus 300 is clamped between the clamping plate 457 and the positioning plate 453.

Specifically, the supporting plate 452 is a rectangular plate, the positioning plate 453 is disposed at one side edge of the supporting plate 452 in a protruding manner, and the supporting plate 452 and the positioning plate 453 form a first mounting space 4520; a connecting hole 4522 is formed in the middle of the supporting plate 452, and guide grooves 4524 are respectively formed in two opposite ends of the side surface of the supporting plate 452, which faces away from the positioning plate 453. The connecting plate 456 is a rectangular bar, the clamping plate 457 is protruded from one side edge of the connecting plate 456, a second mounting space 4560 is defined by the connecting plate 456 and the clamping plate 457, and a space defined by the second mounting space 4560 and the first mounting space 4520 is used for mounting the game device 300. The side of the connecting plate 456 facing away from the clamping plate 457 is provided with two guide posts 4564 corresponding to the two guide slots 4524, and the two guide posts 4564 are slidably inserted into the two guide slots 4524 respectively, so as to mount the game devices 300 with different widths.

Preferably, an elastic member 458 is disposed between the support member 451 and the clamping member 454 to force the clamping member 454 to move toward the support member 451, so as to firmly clamp the game apparatus 300 between the support member 451 and the clamping member 454. In this embodiment, the elastic member 458 is a tension spring disposed between the supporting member 451 and the clamping member 454 for pulling the clamping member 454 to move toward the supporting member 451.

The bracing piece 42 including rotate connect in shell 20 rotate section 421, rotate connect in the extension section 424 of the periphery wall of rotating section 421, and set up in extension section 424 is kept away from rotate the linkage segment 426 of section 421, linkage segment 426 rotate connect in the installing frame 45. Specifically, a pair of rotating shafts 422 are convexly arranged at two opposite ends of the rotating section 421, and the pair of rotating shafts 422 are coaxial; the pair of rotating shafts 422 are rotatably inserted into the pair of shaft holes 216 of the housing 20, respectively, so that the supporting rod 42 can rotate along the axial line of the rotating shafts 422. The connecting column 423 is convexly arranged in the middle of the outer wall of the rotating section 421, the extending section 424 is in an L shape, one end of the extending section 424 is rotatably connected to one end, far away from the rotating section 421, of the connecting column 423, and the connecting section 426 is arranged at the other end of the extending section 424. The coupling segment 426 is provided with a coupling piece 427 rotatably inserted into the coupling hole 4522 of the support plate 452, so that the supporting member 451 is rotatable relative to the coupling piece 427.

When the game handle 100 is assembled, the automatic wire rewinding mechanism 60 is installed in the receiving space 22 of the housing 20, and the earphone 50 is also received in the receiving space 22 through the insertion hole 220; the rotating shafts 422 of the supporting rods 42 are rotatably inserted into the corresponding shaft holes 216, respectively, so that the supporting rods 42 are rotatably connected to the housing 20; two guide posts 4564 of the clamping member 454 are respectively inserted into the two guide grooves 4524, and the elastic member 458 is connected between the clamping member 454 and the supporting member 451; and then the connecting piece 427 of the supporting rod 42 is rotatably inserted into the connecting hole 4522 of the supporting plate 452.

In this embodiment, the earphone 50 is electrically connected to the game device 300 by bluetooth technology.

In other embodiments, the end of the earphone cord 52 of the earphone 50 remote from the earphone 50 is provided with a plug that can be plugged into an earphone hole of the game device 300.

Referring to fig. 4 to 8, when the game handle 100 is used, the game device 300 is mounted on the game handle 100, specifically, the clamping member 454 is pulled outwards to move the clamping member 545 away from the supporting member 451, the guide post 4564 slides along the corresponding guide slot 4524, the elastic member 458 elastically deforms, the clamping plate 457 is away from the positioning plate 453, and a space defined by the first mounting space 4520 and the second mounting space 4560 is larger than the width of the game device 300, that is, the distance between the clamping plate 457 and the positioning plate 453 is larger than the width of the game device 300; the game device 300 is placed in a space defined by the first installation space 4520 and the second installation space 4560, the external tension on the clamping piece 454 is released, and the elastic piece 458 elastically resets to drive the clamping piece 454 to move towards the support piece 451, so that the game device 300 is firmly clamped between the clamping plate 457 and the positioning plate 453; after the joystick 100 is electrically connected to the game device 300, the game device 30 can be operated by operating the control buttons on the joystick 100. When the earphone 50 is needed to be used, the earphone 50 is taken out from the insertion hole 220, the earphone cord 52 is pulled outwards, the earphone cord 52 drives the cord rewinding element 64 to rotate, the guide sliding surface 603 slidably pushes the positioning rod 672, the positioning rod 672 moves towards the side away from the cord rewinding element 64, the elastic element 674 elastically deforms until the positioning rod 672 is separated from the corresponding positioning hole, and the spiral spring 65 also elastically deforms. When the length of the earphone cord 52 pulled out of the insertion hole 220 is the length required by a proper user, the pulling force on the earphone cord 52 is released, the elastic member 674 is elastically reset to drive the positioning rod 672 to move towards the wire rewinding member 64 until the end of the positioning rod 672 is positioned at the corresponding positioning portion 601, the stopping surface 677 stops the rotation of the wire rewinding member 64, so that the length of the earphone cord 52 is positioned, the earphone cord 52 is prevented from being wound into the wire rewinding groove 642 of the wire rewinding member 64 again, and the use of the earphone 50 by the user is facilitated.

When the earphone 50 needs to be stored after being used, the operating cover 675 is pulled outwards to drive the positioning rod 672 to move towards the side away from the wire collecting piece 64, the stop surface 677 is separated from the abutting contact with the corresponding positioning hole, the coil spring 65 is elastically reset to drive the wire collecting piece 64 to rotate, the earphone wire 52 is wound and stored in the wire collecting groove 642 of the wire collecting piece 64 again, and the earphone 50 passes through the insertion hole 220 and is stored in the storage space 22. Since the earphones 50 can be accommodated in the accommodating space 22 of the gamepad 100, the user can be prevented from forgetting to carry the earphones 50 or being unable to use the earphones 50, which reduces the game experience; in addition, the automatic wire rewinding mechanism 60 of the game handle 100 can automatically rewind the earphone cord 52 into the rewinding space 22 of the housing 20, so that the use is convenient, and the convenience and the user experience are improved.

Referring to fig. 9 and 10 together, fig. 9 is a schematic cross-sectional structure view of a game pad according to a second embodiment of the present invention; fig. 10 is a schematic view of the gamepad of fig. 9 showing a state in which an earphone cord is automatically received. The structure of the second embodiment of the game pad of the present invention is similar to that of the first embodiment, except that: the elastic member 674 of the second embodiment is disposed on the positioning rod 672 and located inside the housing 20. Specifically, an abutting part 678 is arranged on a section of the positioning rod 672 located in the housing 20, one end of the elastic part 674 abuts against the abutting part 678, the other end, opposite to the elastic part 674, abuts against the inner surface of the housing 20, the elastic part 674 always provides a pushing force for pushing the positioning rod 672 to move towards the wire rewinding part 64, and the end part of the positioning rod 672 is positioned in the corresponding positioning part 601. In this embodiment, the elastic member 674 is a spring, and the abutting member 678 is an annular piece fixedly secured to the positioning rod 672.

When the operating cover 675 is pulled in a direction away from the wire-rewinding member 64, the positioning rod 672 moves outward to be separated from the positioning of the corresponding positioning portion 601, the abutting member 678 presses the elastic member 674 to generate elastic deformation, the coil spring 65 drives the wire-rewinding member 64 to rotate, and the earphone cord 52 is wound and stored in the wire-rewinding groove 642 of the wire-rewinding member 64 again; when the earphone cord 52 is stored in place, the pulling force on the operating cover 675 is released, the elastic member 674 is elastically restored and pushes against the abutting member 678 to drive the positioning rod 672 to move towards the cord collecting member 64 until the end of the positioning rod 672 is positioned at the corresponding positioning portion 601.

The foregoing is illustrative of embodiments of the present invention, and it should be noted that modifications and adaptations to those skilled in the art may be made without departing from the principles of the embodiments of the present invention and are intended to be within the scope of the present invention.

Claims (20)

1. The utility model provides a gamepad, includes the shell and sets up in support frame on the shell, its characterized in that, set up in the shell and accomodate the space, accomodate the space and be used for accomodating the earphone, the support frame is used for supporting game device.

2. The game pad of claim 1, wherein the receiving space penetrates through an outer surface of the housing to form an insertion hole through which the earphone is received in the receiving space.

3. The gamepad of claim 1, wherein an automatic wire rewinding mechanism is arranged in the accommodating space of the shell, and one end of the earphone wire of the earphone, which is far away from the earphone, is automatically accommodated in the automatic wire rewinding mechanism.

4. The gamepad of claim 3, wherein the housing comprises a front side provided with a plurality of control buttons, a back side facing away from the front side, and a front side and a back side connected to the same side of the front side and the back side, the support frame being located at the front side of the housing, the receiving space being formed through the back side with an insertion hole, the earphone being received in the receiving space through the insertion hole.

5. The gamepad of claim 4, wherein the automatic cable rewinding mechanism comprises a housing and a cable rewinding element disposed in the housing, the cable rewinding element rotating relative to the housing to wind an earphone cable around the cable rewinding element or to unwind the earphone cable from the cable rewinding element.

6. The gamepad of claim 5, wherein the automatic cable winding mechanism further comprises a driving member that drives the cable winding member to rotate, the driving member driving the cable winding member to rotate so that an earphone cable is wound around the cable winding member.

7. The gamepad of claim 6, wherein the drive member is a coil spring disposed between the housing and the cord take-up member, the coil spring providing a force to drive the cord take-up member to rotate.

8. The gamepad of claim 6, wherein the automatic thread take-up mechanism further comprises a positioning member for positioning the rotation of the thread take-up member.

9. The gamepad of claim 8, wherein the positioning element comprises a positioning rod and an elastic element for driving the positioning rod to move towards the wire collecting element, the wire collecting element is provided with a plurality of positioning parts corresponding to the positioning rod, and the elastic element provides a force for driving the positioning rod to move towards the positioning parts, so that the positioning rod abuts against the corresponding positioning parts to prevent the wire collecting element from rotating.

10. The gamepad of claim 9, wherein the positioning portions are positioning holes formed in the wire take-up member, the positioning holes are arranged in a circle around a rotation axis of the wire take-up member, and the positioning rod can be inserted into any one of the positioning holes to position the rotation of the wire take-up member.

11. The gamepad of claim 10, wherein one side of the positioning rod inserted into one end of the positioning hole is provided with an arc-shaped sliding guide surface, the earphone cord is pulled outwards to drive the cord rewinding element to rotate, and the sliding guide surface of the positioning rod is separated from being clamped with the corresponding positioning hole.

12. The gamepad of claim 11, wherein a stop surface is provided on the side of the locating lever that is inserted into the locating hole and faces away from the sliding guide surface, the locating lever being inserted into the corresponding locating hole, the stop surface preventing the wire takeup member from rotating.

13. The gamepad of claim 9, wherein the positioning element further comprises an operating cover disposed at an end of the positioning rod exposed out of the housing, and the elastic element is a tension spring sleeved on the positioning rod and connected between the operating cover and the housing.

14. The gamepad of claim 9, wherein an abutment member is provided at one end of the positioning lever within the housing, and the resilient member is a spring abutting between the abutment member and the housing.

15. The gamepad of claim 1, wherein the support frame comprises a support bar pivotally connected to the housing and a mounting frame connected to an end of the support bar remote from the housing, the mounting frame being adapted to locate the game apparatus.

16. The gamepad of claim 15, wherein the mounting frame comprises a support member and a clamp member slidably connected to the support member, the support member and the clamp member co-locating the gaming apparatus.

17. The game handle of claim 16, wherein the supporting member comprises a supporting plate and a positioning plate disposed at one end of the supporting plate, the clamping member comprises a connecting plate corresponding to the supporting plate and a clamping plate disposed at a side of the connecting plate away from the positioning plate, the supporting plate and the connecting plate are connected by a guide slot and a guide post, the guide post slides in the corresponding guide slot to drive the clamping plate to move closer to or away from the positioning plate, and the game device is clamped between the clamping plate and the positioning plate.

18. The game pad of claim 16, wherein a resilient member is disposed between the support member and the retaining member to urge the retaining member toward the support member.

19. The game handle of claim 15, wherein the support lever includes a rotation section rotatably coupled to the housing, an extension section rotatably coupled to an outer peripheral wall of the rotation section, and a connection section provided at the extension section away from the rotation section, the connection section being rotatably coupled to the mounting frame.

20. The gamepad of claim 19, wherein the mounting frame defines attachment holes, and wherein the attachment section defines attachment tabs that are rotatably received within the attachment holes.

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